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Millimeter Wave Radar PCB

Short Description:

The Millimeter Wave (mmWave) Radar Printed Circuit Board (PCB)


  • Frequency Range: 24 GHz - 77 GHz
  • PCB Material: Rogers RO3000/4000, Taconic, or equivalent
  • Dielectric Constant (Dk): 3.0 - 3.4 (depending on material)
  • Loss Tangent (Df): ≤ 0.0025
  • Number of Layers: 2 to 12 layers (customizable)
  • Copper Thickness: 1 oz, 2 oz
  • Surface Finish: ENIG (Electroless Nickel Immersion Gold)
  • Thermal Conductivity: ≥ 0.6 W/m·K
  • Impedance Control: Yes, ± 10% tolerance
  • Antenna Integration: Yes (embedded or external)
  • Operating Temperature: -40°C to +125°C
  • Moisture Absorption: < 0.02%
  • RoHS Compliance: Yes
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Overview:

The Millimeter Wave (mmWave) Radar Printed Circuit Board (PCB) is designed for advanced radar systems operating in the millimeter-wave frequency range, typically between 24 GHz and 77 GHz. This cutting-edge PCB is engineered to support high-frequency signal transmission with minimal loss, making it ideal for automotive radar systems, industrial automation, drone navigation, and other critical applications requiring precise object detection and range measurement.

Key Features:

- Frequency Range: Operates in the mmWave band (24 GHz to 77 GHz) for high-resolution radar applications.

- Material Composition: Utilizes high-performance dielectric materials such as Rogers RO3000/4000 series or Taconic to ensure low dielectric constant and minimal signal loss at high frequencies.

- Multi-Layer Design: Supports complex multi-layer structures to accommodate power distribution, ground planes, and signal integrity management.

- Impedance Control: Precision impedance matching ensures stable and reliable high-frequency performance, essential for minimizing signal reflection and optimizing radar system accuracy.

- Thermal Management: Integrated thermal management solutions to handle heat dissipation from high-speed components, ensuring long-term reliability.

- Low Signal Loss: Employs low-loss dielectric materials and tightly controlled PCB processes to reduce signal degradation, even over longer traces.

- Compact Size: Optimized for space-constrained environments, with a high component density and surface-mount technology (SMT) compatibility.

- Antenna Integration: Features embedded antenna arrays or provisions for external mmWave antenna modules, offering flexibility in design.

- Environmental Durability: Resistant to harsh environmental conditions, including temperature fluctuations and moisture, making it suitable for automotive and industrial settings.

Applications:

    - Automotive ADAS (Advanced Driver Assistance Systems)

    - Industrial automation and robotics

    - Drone navigation and obstacle detection

    - Security and surveillance systems

    - Smart city infrastructure


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